Metabolism: Anabolism and Catabolism By Dr. Sumbul Fatma
Objectives Understand the concept of metabolic pathway Identify types & characters of metabolic pathways- anabolic and catabolic Identify ATP as the energy currency of cells
Metabolism All the chemical reactions taking place inside a cell are collectively known as METABOLISM Metabolism consists of: energy consuming (anabolic) pathways energy producing (catabolic) pathways
Pathway Vs Chemical Reaction Metabolic Pathway: A multi-step sequence of chemical reactions A product of first reaction becomes a substrate for second reaction Integrated pathways: Metabolism
Glycolysis, an example of a metabolic pathway
Metabolic Map Different pathways can intersect, forming an integrated and purposeful network of chemical reactions “The Metabolic Map”
Classification Most pathways can be classified catabolic anabolic Note: Pathways that regenerate a component are called cycles
Catabolic Pathways
Anabolic Pathways Precursor molecules into complex molecules Endergonic reactions require ATP Divergent process
Catabolism Vs Anabolism
Comparison of catabolic and anabolic pathways Simple to complex molecules Endergonic Involves reductions Requires NADPH Divergent process Complex to simple molecules Exergonic Involves oxidations Requires NAD+ Convergent process Eplain what
Amphibolic Pathways For example, Amphi = Dual, amphibolic: dual pathway For example, Krebs cycle is mainly a catabolic cycle, but with some anabolic features, e.g., part of Krebs cycle is used for the synthesis of glucose from amino acids Therefore, Krebs cycle is amphibolic
Energy Currency: ATP ATP + H2O ADP +Pi The free energy liberated in the hydrolysis of ATP is used to drive the endergonic reactions ATP is formed from ADP and Pi when fuel molecules are oxidized This ATP-ADP cycle is the fundamental mode of energy exchange in biological systems
Adenosine Triphosphate (ATP) Δ Gº -7.3 kcal/mol/bond
Oxidation-Reduction in Metabolism E-rich compounds e.g., E-rich reduced coenzymes Oxidation ETC
Oxidation/Reduction Oxidation: Loss of hydrogen Loss of electrons Gain of hydrogen Gain of electrons
NAD+/ NADH
Regulation of Metabolism Intracellular signals: Substrate availability Product inhibition Allosteric activators Intercellular communications: Chemical signaling (hormones): Second messenger cAMP, cGMP Ca/phosphatidylinositol
Metabolic Fuel Carbohydrates & lipids (mainly) and proteins (little extent) are used for energy production These are- glucose, fatty acids and amino acids Glucose is the major metabolic fuel of most tissues
Take Home Message-1 Metabolism is the sum of all biochemical pathways that occur inside the cells. A metabolic pathway is a multistep sequences of enzyme- catalyzed reactions.
Take Home Message-2 Catabolism is a convergent process that provides energy to cells in the form of ATP. Anabolism is a divergent process that consumes energy for the synthesis of complex molecules. Metabolic pathways are tightly regulated and highly integrated.
Take Home Message-3 ATP is the energy currency of the cells
Electron Transport Chain (ETC) Figure For Illustration only Non-protein mobile carrier Sites for ATP Synthesis Electron transport and ATP synthesis are tightly coupled processes